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164 lines
5.7 KiB
C
164 lines
5.7 KiB
C
3 weeks ago
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/*=========================================================================
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Program: Visualization Toolkit
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Module: vtkAttributesErrorMetric.h
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Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
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All rights reserved.
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See Copyright.txt or http://www.kitware.com/Copyright.htm for details.
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This software is distributed WITHOUT ANY WARRANTY; without even
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the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
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PURPOSE. See the above copyright notice for more information.
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=========================================================================*/
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/**
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* @class vtkAttributesErrorMetric
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* @brief Objects that compute
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* attribute-based error during cell tessellation.
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*
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*
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* It is a concrete error metric, based on an attribute criterium:
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* the variation of the active attribute/component value from a linear ramp
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*
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* @sa
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* vtkGenericCellTessellator vtkGenericSubdivisionErrorMetric
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*/
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#ifndef vtkAttributesErrorMetric_h
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#define vtkAttributesErrorMetric_h
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#include "vtkCommonDataModelModule.h" // For export macro
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#include "vtkGenericSubdivisionErrorMetric.h"
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class vtkGenericAttributeCollection;
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class vtkGenericDataSet;
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class VTKCOMMONDATAMODEL_EXPORT vtkAttributesErrorMetric : public vtkGenericSubdivisionErrorMetric
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{
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public:
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/**
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* Construct the error metric with a default relative attribute accuracy
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* equal to 0.1.
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*/
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static vtkAttributesErrorMetric* New();
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//@{
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/**
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* Standard VTK type and error macros.
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*/
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vtkTypeMacro(vtkAttributesErrorMetric, vtkGenericSubdivisionErrorMetric);
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void PrintSelf(ostream& os, vtkIndent indent) override;
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//@}
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//@{
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/**
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* Absolute tolerance of the active scalar (attribute+component).
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* Subdivision is required if the square distance between the real attribute
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* at the mid point on the edge and the interpolated attribute is greater
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* than AbsoluteAttributeTolerance.
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* This is the attribute accuracy.
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* 0.01 will give better result than 0.1.
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*/
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vtkGetMacro(AbsoluteAttributeTolerance, double);
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//@}
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/**
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* Set the absolute attribute accuracy to `value'. See
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* GetAbsoluteAttributeTolerance() for details.
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* It is particularly useful when some concrete implementation of
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* vtkGenericAttribute does not support GetRange() request, called
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* internally in SetAttributeTolerance(). It may happen when the
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* implementation support higher order attributes but
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* cannot compute the range.
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* \pre valid_range_value: value>0
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*/
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void SetAbsoluteAttributeTolerance(double value);
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//@{
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/**
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* Relative tolerance of the active scalar (attribute+component).
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* Subdivision is required if the square distance between the real attribute
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* at the mid point on the edge and the interpolated attribute is greater
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* than AttributeTolerance.
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* This is the attribute accuracy.
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* 0.01 will give better result than 0.1.
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*/
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vtkGetMacro(AttributeTolerance, double);
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//@}
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/**
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* Set the relative attribute accuracy to `value'. See
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* GetAttributeTolerance() for details.
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* \pre valid_range_value: value>0 && value<1
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*/
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void SetAttributeTolerance(double value);
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/**
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* Does the edge need to be subdivided according to the distance between
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* the value of the active attribute/component at the midpoint and the mean
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* value between the endpoints?
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* The edge is defined by its `leftPoint' and its `rightPoint'.
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* `leftPoint', `midPoint' and `rightPoint' have to be initialized before
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* calling RequiresEdgeSubdivision().
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* Their format is global coordinates, parametric coordinates and
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* point centered attributes: xyx rst abc de...
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* `alpha' is the normalized abscissa of the midpoint along the edge.
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* (close to 0 means close to the left point, close to 1 means close to the
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* right point)
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* \pre leftPoint_exists: leftPoint!=0
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* \pre midPoint_exists: midPoint!=0
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* \pre rightPoint_exists: rightPoint!=0
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* \pre clamped_alpha: alpha>0 && alpha<1
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* \pre valid_size: sizeof(leftPoint)=sizeof(midPoint)=sizeof(rightPoint)
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* =GetAttributeCollection()->GetNumberOfPointCenteredComponents()+6
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*/
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int RequiresEdgeSubdivision(
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double* leftPoint, double* midPoint, double* rightPoint, double alpha) override;
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/**
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* Return the error at the mid-point. The type of error depends on the state
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* of the concrete error metric. For instance, it can return an absolute
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* or relative error metric.
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* See RequiresEdgeSubdivision() for a description of the arguments.
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* \pre leftPoint_exists: leftPoint!=0
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* \pre midPoint_exists: midPoint!=0
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* \pre rightPoint_exists: rightPoint!=0
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* \pre clamped_alpha: alpha>0 && alpha<1
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* \pre valid_size: sizeof(leftPoint)=sizeof(midPoint)=sizeof(rightPoint)
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* =GetAttributeCollection()->GetNumberOfPointCenteredComponents()+6
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* \post positive_result: result>=0
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*/
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double GetError(double* leftPoint, double* midPoint, double* rightPoint, double alpha) override;
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protected:
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vtkAttributesErrorMetric();
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~vtkAttributesErrorMetric() override;
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/**
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* Compute the square absolute attribute tolerance, only if the cached value
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* is obsolete.
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*/
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void ComputeSquareAbsoluteAttributeTolerance();
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double AttributeTolerance;
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double SquareAbsoluteAttributeTolerance; // cached value computed from
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// AttributeTolerance and active attribute/component
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double AbsoluteAttributeTolerance;
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int DefinedByAbsolute;
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vtkTimeStamp SquareAbsoluteAttributeToleranceComputeTime;
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double Range; // cached value computed from active attribute/component
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vtkGenericAttributeCollection* AttributeCollection;
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private:
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vtkAttributesErrorMetric(const vtkAttributesErrorMetric&) = delete;
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void operator=(const vtkAttributesErrorMetric&) = delete;
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};
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#endif
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